Insights of OPs and PYR cytotoxic potential Invitro and genotoxic impact on PON1 genetic variant among exposed workers in Pakistan

Different pesticide chemicals are used to enhance crop yield by protecting from pests. Organophosphate (OPs) and Pyrethroid (PYR) are used in fields of Sanghar, Sindh Pakistan. PON1 an antioxidant enzyme implicated in OPs detoxification may predispose by OPs chronic exposure. This study was conducted to evaluate the toxic potential of active pesticide chemicals at cellular and genetic levels. To examine toxic potential, locally consumed pesticide n = 2 and reference pesticide compounds organophosphate (OPs): Chloropyrifos, Malathion and Pyrethroid (PYR): Cyprmethrin, Cyhalothrin n = 4 were tested against NIH 3T3 cells using MTS assay. Local consumer pesticides demonstrated relevance for half-maximum inhibitory concentration (IC50) 0.00035 mg/mL with selected compound. Malathion IC50 exhibited the highest cytotoxicity among four compounds at 0.0005 mg/mL. On genotoxicity analysis in exposed subjects n = 100 genotypes and alleles n = 200 exhibited significant differences in genotypic and allelic frequencies of pesticide exposed subjects and controls n = 150 (X2 = 22.9, p = 0.001). Screening of genotypes were performed by PCR- RFLP. Statistical assessment carried out using online software and tools. Results suggested that higher heterozygous genotype A/G (74%) may confer low PON1 metabolic activity towards pesticides in exposed subjects. Findings could be helpful to establish health plans by avoiding toxic chemicals that harming exposed population.

www.nature.com/scientificreports/ It involves in detoxification of pesticide compounds specifically OPs-Oxon 15 that is a reactive metabolite of OPs produces neurotoxic effects 16 . The gene PON1 has been reported is one of the susceptible factors to environmental toxicants including toxic pesticides. Mechanism of detoxification may be altered by a single nucleotide polymorphism, 163 T > A (rs854560) results in non-synonymous substitution of methionine (M) to leucine (L) at position 55 (L55M) which demonstrates more sensitive to pesticide toxicity 17. Upon chronic exposure to pesticide and low hydrolytic activity of PON1 risk for initiation of certain diseases has been indicated by various previous studies including diabetes, neurological disorders, respiratory distress, Alzheimer, dementia and certain cancers 18-22. In current study a survey assessment was conducted among pesticide exposed subjects of Sanghar, Sindh, Pakistan according to recorded facts, dermal absorption of pesticide was found the most common route of entry. Thus a fibroblast cell line NIH/3T3 was chosen for testing of close assessment of selected pesticide toxic effects. The NIH/3T3 cells (originated from the murine fibroblast) has characteristics to grow rapidly, anchorage dependent, contact inhibited and longtime existence in appropriate conditions 23 .This study was conducted to recognize and assess the toxic effects of pesticide chemicals could have an impact at cellular (dosage dependent) and genetic (dosage in-dependent) levels.

Results
Cytotoxic potential of local consumer pesticide solution. Two local pesticide solutions "green" and "red" colored were tested for their toxic potential. After 24 h of exposure to green pesticide solution a significant difference at dose 0.00035 mg/mL on cell viability was observed (Fig. 1a). After treatment with red pesticide solution it was observed that significant effect at dose 0.01 mg/mL was exhibited on cell viability when compared with control cells (Fig. 1b).(Green pesticide solution: pack stock concentration 0.01 mg/mL, red pesticide solution: pack stock concentration 0.02 mg/ mL).
Cytotoxic potential of reference pesticides. MTS assay was performed to examine the influence of PYR and OPs pesticide reference chemicals on NIH/3T3 cells at dose dependent manner. Regarding PYR pesticides after 24 h of exposure to specific treatments of Cypermethrin, it was observed that at dose 0.03 mg/mL significant inhibition was observed on cell viability (Fig. 2a). On exposure to Cyhalothrin against NIH/3T3 cells at gradient concentrations it was demonstrated that a significant difference in half cell viability at dose 0.05 mg/ mL was calculated when compared with control cells (Fig. 2b). Different concentrations of OPs pesticides Chloropyrifos was determined for its toxic potential a significant decrease in cell viability after 24 h was observed at dose 0.02 mg/mL (Fig. 2c). whereas OPs Malathion was exhibited half reduction of cells at dose 0.0005 mg/mL (toxic potential: Malathion > Chloropyrifos > Cypermethrin > Cyhalothrin) (Fig. 2d).
Association analysis in study subjects. Association of PON1 genetic (rs854560) variant with OPs toxicity defined in (Table 1). Genotypic frequency distribution between exposed and control subjects was estimated by Chi-square (p < 0.05), was done according to Hardy-Weingberg equiliberium (HWE) law. In genotypic distribution, the higher occurrence of T/T and A/A genotypes were demonstrated in controls whereas the T/A genotype was indicated higher among exposed (74%) as compared to controls (43%) the results negates HWE (p < 0.05). Allelic distributions revealed that mutant allele "A" was higher in frequency in the exposed subjects (39%). Our study suggested that in PON1 genetic variant (rs854560) mutant allele "A" showed a significant resistance against OPs toxicity in exposed subjects (OR = 0.47, 95% CI: 0.25-0.87, p = 0.01).

Discussion
Pesticide toxicity is countered through various detoxification mechanisms in human. These mechanisms comprise of oxidases, hydrolases, and transferases. The actions of involved enzymes is influenced by genetic variations 16 . In the current study pesticide compounds were selected through a survey questionnaire according to this Chloropyrifos, Malathion (OPs), Cypermethrin and Cyhalothrin (PYR) are frequently applied in the fields of Sanghar, Sindh, Pakistan. Local consuming pesticide solutions (commercially branded) were also collected from the applying fields. To check the toxic potential of certain reference compounds at dose-dependent manner a cell viability assay (MTS) was employed. On the other hand toxicogenic association with PON1 (rs854560) variant and tested pesticide compounds, genotypes of local exposed subjects were investigated for genetic variations.
As mentioned above PON1, in particular, involved in the hydrolysis of a variety of OPs but predominantly acts on their metabolites like Oxon. Upon pesticide continuous exposure a change in expression and efficiency of  www.nature.com/scientificreports/ PON1 has been reported in various studies 24,25 . PON1 provides several physiological roles in the metabolism of OPs and causes oxidative stress 26 . Inhibition of PON1 due to environmental factors affects quantitative or qualitative synthesis of PON1 may cause serious health concerns in exposed individuals [27][28][29] . Some endogenous and exogenous elements are responsible to obstruct pesticide metabolism. Due to single nucleotide polymorphism (SNP) individuals either sensitive or resistant to pesticide exposure 30 . Sözmen et al. demonstrated an inhibition in PON1 activity in OPs exposed workers, that inhibition was independent of the pesticide type and amount of the OPs. It was also indicated that PON1 polymorphisms are crucial risk factors in vulnerability to OPs toxicity and may be used as a marker of chronic exposure to pesticides in farmers 31 .Thus the effect of OPs response on PON1 (rs854560) variant was investigated in this study as an anticipated susceptible factor in the exposed group. Exposed individuals had more than 2 years of employment period with selected pesticide were recruited in this study. As results suggested that among four reference compounds Malathion (OPs) showed close IC50 dose relevant with locally collected pesticide solution. Therefore the study suggested that OPs may be associated with PON1 (rs854560) polymorphism. It was obvious that PON1 (rs854560) genotypic frequencies distribution showed a strong significant association with PON1 (rs854560) variant and OPs pesticide exposure in the study population of Sanghar, Sindh, Pakistan. In exposed subjects, higher heterozygous genotype A/G (74%) may confer low PON1 metabolic activity towards pesticide metabolism in exposed subjects as compared to wild type genotype T/T (51%) in controls may have higher risk for pesticide toxicity.
Results of current study are consistent with a recent study, conducted between two different populations (Cameron: Figuil, Njobe and Sa'a and Pakistan: Depalpur and Multan) a strong significant difference was observed in PON1 (rs854560) polymorphism in both OPs exposed to agriculture populations (Pakistan: X 2 = 126.102, p = 0.000) and (Cameron: X 2 = 32.200, p = 0.000) 16 . Our previous study also indicated pesticide-induced polymorphisms in phase1 and phase II pesticide metabolizing genes in subjects of Sanghar, Sindh OPs exposed regions 32 . Numerous studies in Pakistan showed a possible association with health-related conditions in exposed individuals. A cross-sectional study determined an association of pesticides exposure with the disruptive function of lungs in rural Sindh, Pakistan 33 . Intensification or reduction in the levels of the neurotransmitter and exert oxidative damage to neuronal cells has been also been reported in a previous study 34 . Another study demonstrated higher DNA damage in the exposed group as compared to the non-exposed group in Bahawalpur District, Punjab Pakistan 35 . To the best of our knowledge, no prior epidemiologic study has examined active ingredients used in the locally consumed pesticide solution. In vitro toxicity testing may evaluate visible effects at dose dependent manner which may help to assess the invisible effects (dosage independent) in-vivo. According to previous in vivo studies specific dose amounts may induce different cellular responses in the pesticide exposed animal models. It has been observed that when rats were exposed to a threshold level (500 mg/kg) delayed neurotoxicity was observed 36 . Other study reported that after 30 min of pesticide exposure (42.5 mg/ kg) neurobehavioral changes were observed in whister rats 37 . In another study decreased Acetyle cholinesterase (AChE) was determined immediately after pesticide dose administration (10 mg/kg oral) in rats. Moreover in another study at a similar dose (i.e. 10 mg/kg) DNA fragmentation and apoptotic cell death were also observed in pesticide exposed rats 38,39 . All these previous studies supported modifications at different cellular levels which might have a deleterious impact on health condition.
A significant difference was observed in genotypes between both study groups estimated by Chi-square statistics Table 1. The higher frequency of the A/G genotype of the PON1 variant showed a higher ratio in the exposed group (74%) as compared to the control group (43%). Findings of the study may be supportive for the prevention and to mitigate the associated health risks linked to pesticide chronic exposure in exposed individuals. Heavy usage of pesticide might be obtain higher crop yields further, for sales promotions farmers are encouraged from pesticide companies for heavy application of pesticides 40 . A consistent biological monitoring, estimation and recorded procedures should be executed among occupationally exposed individuals for their risk assessment. At the molecular level dearth of data availability in rural areas of Pakistan is the major hindrance to establishing clear environmental health related-issues. There are limitations in the study; limited sample size, lack of data availability at the molecular level in the selected regions, other environmental factors like arsenic, lead etc. exposures were not focused and ethnic differentiation were also not considered these were the possible bias of the study.

Conclusions
Among four selected pesticide compounds, PON1 (rs854560) exhibited an anticipated association with Malathion (OPs) toxicity. PON1 enzyme detoxifies OPs metabolites, a single nucleotide polymorphism in the coding region of PON1, which may alter the activity and concentration of PON1 may cause serious health disorders in exposed individuals. The findings will be helpful to identify toxic environmental agents, their prevention and also to mitigate the associated health risk linked to pesticide chronic exposure in exposed individuals. Further pharmacogenetic studies might be conducted to elucidate the role of PON1 (rs854560) variant in the mechanism of pesticide detoxification.

Materials and methods
Ethical approval and sample collection. This study is an extended part of previously published research 32 . The study was conducted in the month of August 2019 in Shahpur Chakara, District Sanghar, Sindh Pakistan. Helsinki Declaration was followed, the Institutional Ethical Committee of Karachi Institute of Biotechnology and Genetic Engineering (KIBGE), University of Karachi allowed this research (Ref: KIBGE/ ICE/114/15/09/2017). The selection of participants was completed by following inclusion and exclusion criteria. It was a case-control study comprised of n = 250 study participants, divided into two study groups exposed n = 100 involved in mixing, treating, stocking, crop plucking and spraying activities in agricultural fields while

DNA extraction and detection of SNP.
For extraction of DNA from the whole blood of study subjects Phenol-chloroform, method was performed with few modifications from the previously described method 42 . PON1 (rs854560) region was amplified using a set of primers chosen from previously reported study 43 . F (forward): 5`TCT GGC AGA AAC TGG CTC TGA AGC C3` and R (reverse): 5`CTT AAA CTG CCA GTC CTA GAA AAC G3` purchased from Eurofins Genomics®, USA. After amplification of a product of 130 bp was obtained ( Supplementary Fig. 2a.). The flow of optimized PCR conditions and reagents was the same with slight modification in the annealing temperature of 52 °C described in previous study 32 . For detection of single nucleotide polymorphism in PON1 (rs854560) region, restriction enzyme NCO1 was selected from NEB cutter V2.0. The amplified product was digested followed by manufacturer`s protocol (ThermoFisher Scientific, USA). Digested products were visualized on 2% agarose gel under a gel documentation system (FastGene® FAS V, Germany) ( Supplementary Fig. 2b).

Statistical analysis.
For the estimation of the observed data statistical package for social sciences (SPSS) version 20.0 was used. One-way analysis of variance (ANOVA) statistics was particularly used to compare percent cell viability values at each specific concentration of seven pesticides. For least significant differences (LSD) in the significant percent cell viability values post hoc was used. To determine the differences in genotypic frequencies between pesticide exposed and controls Pearson chi-square (X 2 ) test was used considering threeby-three contingency. Allelic association with genetic susceptibility and pesticide exposure was estimated using odds ratio (OR) considering two-by-two contingency using online tool Medcalc®. Results were considered significant when p < 0.05*, p < 0.01**, p < 0.001***.

Ethics declarations. Approval for human experiments.
This study was approved and reviewed by the institutional ethical committee (Institutional Review Board (IRB)) Ref: KIBGE/ICE/114/15/09/2017) that approved the experiments including relevant details. Written informed consent was taken prior to blood collection from all study subjects. Further, a designed survey questionnaire was filled from exposed subjects regarding occupational information, pesticide brand names and immediate medical conditions after pesticide spray etc. All experiments were performed in accordance with relevant guidelines and regulations.